#include <boost/function.hpp>
#include <boost/intrusive/list.hpp>
-#include "surf/trace_mgr.h"
+
+#include <xbt/signal.hpp>
+
#include "xbt/lib.h"
#include "surf/surf_routing.h"
-#include "simgrid/platf_interface.h"
#include "surf/surf.h"
#include "src/surf/surf_private.h"
#include "src/internal_config.h"
-#ifdef LIBSIGC
-#include <sigc++/sigc++.h>
-namespace simgrid {
-namespace surf {
- // Wraps sigc++ signals with the interface of boost::signals2:
- template<class T> class signal;
- template<class R, class... P>
- class signal<R(P...)> {
- private:
- sigc::signal<R, P...> sig_;
- public:
- template<class U> XBT_ALWAYS_INLINE
- void connect(U&& slot)
- {
- sig_.connect(std::forward<U>(slot));
- }
- template<class Res, class... Args> XBT_ALWAYS_INLINE
- void connect(Res(*slot)(Args...))
- {
- sig_.connect(sigc::ptr_fun(slot));
- }
- template<class... Args> XBT_ALWAYS_INLINE
- R operator()(Args&&... args) const
- {
- return sig_.emit(std::forward<Args>(args)...);
- }
- };
-}
-}
-#else
-#include <boost/signals2.hpp>
-namespace simgrid {
-namespace surf {
- template<class T>
- using signal = ::boost::signals2::signal<T>;
-}
-}
-#endif
-
-extern XBT_PRIVATE tmgr_history_t history;
#define NO_MAX_DURATION -1.0
/*********
namespace simgrid {
namespace surf {
-extern XBT_PRIVATE simgrid::surf::signal<void(void)> surfExitCallbacks;
+extern XBT_PRIVATE simgrid::xbt::signal<void(void)> surfExitCallbacks;
}
}
int XBT_PRIVATE __surf_is_absolute_file_path(const char *file_path);
+static inline char* sg_storage_name(sg_storage_t storage) {
+ return storage->key;
+}
+
/***********
* Classes *
***********/
*********/
/* For the trace and trace:connect tag (store their content till the end of the parsing) */
XBT_PUBLIC_DATA(xbt_dict_t) traces_set_list;
-XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_host_avail;
-XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_power;
-XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_link_avail;
-XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_bandwidth;
-XBT_PUBLIC_DATA(xbt_dict_t) trace_connect_list_latency;
/**********
* Action *
typedef boost::intrusive::member_hook<
Action, boost::intrusive::list_member_hook<>, &Action::action_hook> ActionOptions;
typedef boost::intrusive::list<Action, ActionOptions> ActionList;
+
+ enum class State {
+ ready = 0, /**< Ready */
+ running, /**< Running */
+ failed, /**< Task Failure */
+ done, /**< Completed */
+ to_free, /**< Action to free in next cleanup */
+ not_in_the_system /**< Not in the system anymore. Why did you ask ? */
+ };
+
private:
/**
* @brief Common initializations for the constructors
void finish();
/** @brief Get the [state](\ref e_surf_action_state_t) of the current Action */
- e_surf_action_state_t getState(); /**< get the state*/
+ Action::State getState(); /**< get the state*/
/** @brief Set the [state](\ref e_surf_action_state_t) of the current Action */
- virtual void setState(e_surf_action_state_t state);
+ virtual void setState(Action::State state);
/** @brief Get the bound of the current Action */
double getBound();
double m_start; /**< start time */
char *p_category = NULL; /**< tracing category for categorized resource utilization monitoring */
- #ifdef HAVE_LATENCY_BOUND_TRACKING
- int m_latencyLimited; /**< Set to 1 if is limited by latency, 0 otherwise */
- #endif
double m_cost;
simgrid::surf::Model *p_model;
void *p_data = NULL; /**< for your convenience */
Model();
virtual ~Model();
- virtual void addTraces() =0;
-
/** @brief Get the set of [actions](@ref Action) in *ready* state */
- virtual ActionList* getReadyActionSet() {return p_readyActionSet;}
+ virtual ActionList* getReadyActionSet() {return readyActionSet_;}
/** @brief Get the set of [actions](@ref Action) in *running* state */
- virtual ActionList* getRunningActionSet() {return p_runningActionSet;}
+ virtual ActionList* getRunningActionSet() {return runningActionSet_;}
/** @brief Get the set of [actions](@ref Action) in *failed* state */
- virtual ActionList* getFailedActionSet() {return p_failedActionSet;}
+ virtual ActionList* getFailedActionSet() {return failedActionSet_;}
/** @brief Get the set of [actions](@ref Action) in *done* state */
- virtual ActionList* getDoneActionSet() {return p_doneActionSet;}
+ virtual ActionList* getDoneActionSet() {return doneActionSet_;}
/** @brief Get the set of modified [actions](@ref Action) */
- virtual ActionLmmListPtr getModifiedSet() {return p_modifiedSet;}
+ virtual ActionLmmListPtr getModifiedSet() {return modifiedSet_;}
/** @brief Get the maxmin system of the current Model */
- lmm_system_t getMaxminSystem() {return p_maxminSystem;}
+ lmm_system_t getMaxminSystem() {return maxminSystem_;}
/**
* @brief Get the update mechanism of the current Model
* @see e_UM_t
*/
- e_UM_t getUpdateMechanism() {return p_updateMechanism;}
+ e_UM_t getUpdateMechanism() {return updateMechanism_;}
/** @brief Get Action heap */
- xbt_heap_t getActionHeap() {return p_actionHeap;}
+ xbt_heap_t getActionHeap() {return actionHeap_;}
/**
* @brief Share the resources between the actions
* @param now The current time of the simulation
* @return The delta of time till the next action will finish
*/
- virtual double shareResources(double now);
- virtual double shareResourcesLazy(double now);
- virtual double shareResourcesFull(double now);
+ virtual double next_occuring_event(double now);
+ virtual double next_occuring_event_lazy(double now);
+ virtual double next_occuring_event_full(double now);
double shareResourcesMaxMin(ActionList* running_actions,
- lmm_system_t sys,
- void (*solve) (lmm_system_t));
+ lmm_system_t sys, void (*solve) (lmm_system_t));
/**
* @brief Update action to the current time
* The only model that is not is NS3: computing the next timestamp moves the model up to that point,
* so we need to call it only when the next timestamp of other sources is computed.
*/
- virtual bool shareResourcesIsIdempotent()=0;
+ virtual bool next_occuring_event_isIdempotent()=0;
protected:
- ActionLmmListPtr p_modifiedSet;
- lmm_system_t p_maxminSystem = nullptr;
- e_UM_t p_updateMechanism = UM_UNDEFINED;
- int m_selectiveUpdate;
- xbt_heap_t p_actionHeap;
+ ActionLmmListPtr modifiedSet_;
+ lmm_system_t maxminSystem_ = nullptr;
+ e_UM_t updateMechanism_ = UM_UNDEFINED;
+ int selectiveUpdate_;
+ xbt_heap_t actionHeap_;
private:
- ActionList* p_readyActionSet; /**< Actions in state SURF_ACTION_READY */
- ActionList* p_runningActionSet; /**< Actions in state SURF_ACTION_RUNNING */
- ActionList* p_failedActionSet; /**< Actions in state SURF_ACTION_FAILED */
- ActionList* p_doneActionSet; /**< Actions in state SURF_ACTION_DONE */
+ ActionList* readyActionSet_; /**< Actions in state SURF_ACTION_READY */
+ ActionList* runningActionSet_; /**< Actions in state SURF_ACTION_RUNNING */
+ ActionList* failedActionSet_; /**< Actions in state SURF_ACTION_FAILED */
+ ActionList* doneActionSet_; /**< Actions in state SURF_ACTION_DONE */
};
}
typedef struct {
double peak; /**< The peak of the metric, ie its max value */
double scale; /**< Current availability of the metric according to the traces, in [0,1] */
- tmgr_trace_event_t event; /**< The associated trace event associated to the metric */
+ tmgr_trace_iterator_t event; /**< The associated trace event associated to the metric */
} s_surf_metric_t;
namespace simgrid {
const char *getName();
/**
- * @brief Update the state of the current Resource
- * @details [TODO]
+ * @brief Apply an event of external load event to that storage
*
- * @param event_type [TODO]
+ * @param event What happened
* @param value [TODO]
- * @param date [TODO]
*/
- virtual void updateState(tmgr_trace_event_t event_type, double value, double date)=0;
+ virtual void apply_event(tmgr_trace_iterator_t event, double value)=0;
/** @brief Check if the current Resource is used (if it currently serves an action) */
virtual bool isUsed()=0;